Your search keyword '"Puy, H."' showing total 9 results

1. Hepatocellular carcinoma without cirrhosis: think acute hepatic porphyrias and vice versa.

Author

Deybach, J.-C. and Puy, H.

Subjects

*LIVER cancer, *HEPATIC porphyria, *CIRRHOSIS of the liver, *CANCER genes, *LIVER diseases

Abstract

In this article the authors discuss the association between hepatocellular carcinoma (HCC) without cirrhosis and acute hepatic porphyrias (AHP). They explore a study which reveals that the 0.8% annual incidence of HHC in acute intermittent porphyria (AIP) gene carriers in the Swedish population distinctly establishes the relationship of HCC and AIP. They assert that the increasing research in the molecular pathogenesis of HCC creates the trend in the management of HCC without cirrhosis.

Published

2011

2. A homoallelic FECH mutation in a patient with both erythropoietic protoporphyria and palmar keratoderma.

Author

Minder, E. I., Schneider-Yin, X., Mamet, R., Horev, L., Neuenschwander, S., Baumer, A., Austerlitz, F., Puy, H., and Schoenfeld, N.

Subjects

BLOOD diseases, GENETIC mutation, CHROMOSOME analysis, MEDICAL genetics, PALESTINIANS, DISEASES, GENETICS

Abstract

Background Erythropoietic protoporphyria (EPP) is a hereditary disorder caused by the deficiency of ferrochelatase (FECH) in the haem biosynthetic pathway. In the majority of families, EPP is transmitted as a pseudodominant trait. Autosomal recessive form of EPP is found in only about 3% of the families. Objectives In this study, we describe a 6-year-old boy who suffered from both EPP and palmar keratoderma. Methods and Results A novel homoallelic missense mutation (p.Ser318Tyr) was identified in the FECH gene. In addition, a region of homozygosity of approximately 6.8 Mb was observed in chromosome 18 of the patient by both microsatellite and SNP array. The parents of the patient, both of Palestinian (Jordanian) origin, were heterozygous for the S318Y mutation, although no history of consanguinity was known. Microsatellite genotyping identified a partial haplotype from each parent that corresponds to the region of homozygosity in the patient. Assuming S318Y is a founder mutation, the number of generations separating the two parents from their common ancestor from whom they inherited S318Y was estimated as 21.7 (95% CI 3.42-69.7). Conclusion EPP was therefore inherited as an autosomal recessive trait in the family. This study confirms the association between palmar keratoderma and autosomal recessive EPP. [ABSTRACT FROM AUTHOR]

Published

2010

3. Role of two nutritional hepatic markers (insulin-like growth factor 1 and transthyretin) in the clinical assessment and follow-up of acute intermittent porphyria patients.

Author

Delaby, C., To-Figueras, J., Deybach, J. C., Casamitjana, R, Puy, H., and Herrero, C.

Subjects

PORPHYRIA, MALNUTRITION, TRANSTHYRETIN, INSULIN, GROWTH factors

Abstract

Objective. Acute intermittent porphyria (AIP) is caused by a deficiency of hydroxymethylbilane synthase. Clinical manifestations are abdominal pain and neurovisceral symptoms, accompanied by overproduction of heme-precursors in the liver, which frequently remains long-lasting in AIP patients. We tested the hypothesis that this condition may be associated with alterations of hepatic proteins known to be either increased or decreased in serum according to diverse pathological conditions including malnutrition, inflammation or liver disease. Design. Serum proteins were analyzed in 26 biochemically active AIP patients that were classified according to the EPI (European Porphyria Initiative) guidelines as follows: (i) patients who presented a single acute attack having remained so far free of clinical symptoms; (ii) patients who present recurrent attacks or chronic symptoms associated with exacerbations of AIP. Results. Most of the serum proteins were within normal limits, however insulin-like growth factor 1 (IGF-1) was decreased in 53.8% of AIP patients ( z-score = −2.86 ± 0.37) and transthyretin (prealbumin) was found significantly decreased in 38.5% of them. The IGF-1 z-score was lower in group B versus group A patients (−2.66 vs. −1.43; P = 0.024). The coincident decrease of both IGF-1 and transthyretin was associated with worsening of the clinical condition. Conclusions. This first study in humans suggests that the clinical expression AIP is associated with a state of under-nutrition and/or with hepatic inflammation due to the sustained accumulation of heme-precursors. We propose the use of both IGF-1 and transthyretin as biomarkers of disease morbidity/severity for the clinical follow-up of AIP patients. [ABSTRACT FROM AUTHOR]

Published

2009

4. Biochemical compared to molecular diagnosis in acute intermittent porphyria.

Author

Groß, U., Puy, H., Jacob, K., Deybach, J., Kremer, J., and Doss, M.

Abstract

The biochemical and the molecular diagnoses of an inherited porphyria require experience. False positive or negative screening tests and the low penetrance of the disease make a correct diagnosis difficult.The biochemical and the molecular procedures for the diagnosis of acute intermittent porphyria were applied to five unrelated patients suffering from acute intermittent porphyria. All patients were shown to be gene carriers of acute intermittent porphyria by both methods. The two different possibilities of the diagnosis corresponded well. In a family definitively identified by molecular diagnosis of one of the patients and his relatives, the patient’s two children were asymptomatic. His son was shown to be a gene carrier of the father’s deficiency by biochemical as well as molecular analysis, whereas his daughter was not affected by acute intermittent porphyria. [ABSTRACT FROM AUTHOR]

Published

2006

5. A molecular, enzymatic and clinical study in a family with hereditary coproporphyria.

Author

Gross, U., Puy, H., Meissauer, U., Lamoril, J., Deybach, J., Doss, M., and Nordmann, Y.

Abstract

A 30-year-old woman suffered from acute crises with abdominal, neurological and psychiatric complaints. Urinary haem precursors and faecal porphyrins were excessively elevated compared to the upper level of the normal range. Urinary coproporphyrin isomer III was increased and faecal copro-porphyrin isomers I and III showed a complete inversion of the normal ratio. Thus, hereditary coproporphyria was diagnosed in this woman. The father, one brother and a sister were shown to be gene carriers of hereditary copro- porphyria by their urinary and faecal excretory constellations. The excretory patterns of the mother and a second brother were normal. Coproporphyrinogen oxidase activity was decreased to 49% and 58% in the patient and her father, respectively. The mother's enzyme activity was normal (98%). Copro-porphyrinogen oxidase concentration was enhanced 1.8-fold and 2.7-fold in the patient and her father, respectively. Mutation analysis revealed the insertion of an adenine at position 857 in exon 4 of the coproporphyrinogen oxidase gene. The gene defect was confirmed by denaturing gradient gel electrophoresis in the patient and her father. The patient was treated by intravenous interval therapy with haem arginate for 10 months, with good clinical and metabolic response. [ABSTRACT FROM AUTHOR]

Published

2002

6. Acute intermittent porphyria: prevalence of mutations in the porphobilinogen deaminase gene in blood donors in France.

Author

Nordmann, Y., Puy, H., Da Silva, V., Simonin, S., Robreau, A. M., Bonaiti, C., Phung, L. N., and Deybach, J. C.

Published

1997

7. 564 NT BNP versus BNP for the diagnosis of heart failure in patients over 75 years old

Author

El Mahmoud, R., Alibay, Y., Brun-Ney, D., Boulard, J.C., Puy, H., and Jondeau, G.

Subjects

HEART failure, HEART disease diagnosis

Abstract

An abstract of the study "NT BNP Versus BNP for the Diagnosis of Heart Failure in Patients Over 75 Years Old," by Y. Alibay and H. Puy, is presented.

Published

2004

8. Update on heme biosynthesis, tissue-specific regulation, heme transport, relation to iron metabolism and cellular energy.

Author

Belot A, Puy H, Hamza I, and Bonkovsky HL

Subjects

Humans, Animals, Biological Transport, Heme metabolism, Heme biosynthesis, Iron metabolism, Energy Metabolism, 5-Aminolevulinate Synthetase metabolism, 5-Aminolevulinate Synthetase genetics

Abstract

Heme is a primordial macrocycle upon which most aerobic life on Earth depends. It is essential to the survival and health of nearly all cells, functioning as a prosthetic group for oxygen-carrying proteins and enzymes involved in oxidation/reduction and electron transport reactions. Heme is essential for the function of numerous hemoproteins and has numerous other roles in the biochemistry of life. In mammals, heme is synthesised from glycine, succinyl-CoA, and ferrous iron in a series of eight steps. The first and normally rate-controlling step is catalysed by 5-aminolevulinate synthase (ALAS), which has two forms: ALAS1 is the housekeeping form with highly variable expression, depending upon the supply of the end-product heme, which acts to repress its activity; ALAS2 is the erythroid form, which is regulated chiefly by the adequacy of iron for erythroid haemoglobin synthesis. Abnormalities in the several enzymes of the heme synthetic pathway, most of which are inherited partial enzyme deficiencies, give rise to rare diseases called porphyrias. The existence and role of heme importers and exporters in mammals have been debated. Recent evidence established the presence of heme transporters. Such transporters are important for the transfer of heme from mitochondria, where the penultimate and ultimate steps of heme synthesis occur, and for the transfer of heme from cytoplasm to other cellular organelles. Several chaperones of heme and iron are known and important for cell health. Heme and iron, although promoters of oxidative stress and potentially toxic, are essential cofactors for cellular energy production and oxygenation., (© 2024 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2024

9. TSPO2 translocates 5-aminolevulinic acid into human erythroleukemia cells.

Author

Manceau H, Lefevre SD, Mirmiran A, Hattab C, Sugier HR, Schmitt C, Peoc'h K, Puy H, Ostuni MA, Gouya L, and Lacapere JJ

Subjects

Biological Transport, Green Fluorescent Proteins genetics, Humans, Isoquinolines pharmacology, K562 Cells, Leukemia, Erythroblastic, Acute pathology, Protoporphyrins metabolism, Receptors, Cytoplasmic and Nuclear antagonists & inhibitors, Receptors, Cytoplasmic and Nuclear genetics, Transfection, Aminolevulinic Acid, Cell Membrane metabolism, Leukemia, Erythroblastic, Acute metabolism, Levulinic Acids pharmacokinetics, Receptors, Cytoplasmic and Nuclear metabolism

Abstract

Background: 5-Aminolevulinic acid (ALA) is the first precursor of heme biosynthesis pathway. The exogenous addition of ALA to cells leads to protoporphyrin IX (PPIX) accumulation that has been exploited in photodynamic diagnostic and photodynamic therapy. Several types of ALA transporters have been described depending on the cell type, but there was no clear entry pathway for erythroid cells. The 18 kDa translocator protein (TSPO) has been proposed to be involved in the transport of porphyrins and heme analogs., Results: ALA-induced PPIX accumulation in erythroleukemia cells (UT-7 and K562) was impaired by PK 11195, a competitive inhibitor of both transmembrane proteins TSPO (1 and 2). PK 11195 did not modify the activity of the enzymes of heme biosynthesis, suggesting that ALA entry at the plasma membrane was the limiting factor. In contrast, porphobilinogen (PBG)-induced PPIX accumulation was not affected by PK 11195, suggesting that plasma membrane TSPO2 is a selective transporter of ALA. Overexpression of TSPO2 at the plasma membrane of erythroleukemia cells increased ALA-induced PPIX accumulation, confirming the role of TSPO2 in the import of ALA into the cells., Conclusions: ALA-induced PPIX accumulation in erythroid cells involves TSPO2 as a selective translocator through the plasma membrane., Significance: This is the first characterisation of molecular mechanisms involving a new actor in ALA transport in ALA-induced PPIX accumulation in erythroleukemia cells, which could be inhibited by specific drug ligands., (© 2020 Société Française des Microscopies and Société de Biologie Cellulaire de France. Published by John Wiley & Sons Ltd.)

Published

2020